Senior Syllabus 2013
ISBN:
Print version:978-1-921802-35-5
Electronic version:978-1-921802-36-2
Technology Studies Senior Syllabus 2013
© The State of Queensland (Queensland Studies Authority) 2013
Queensland Studies Authority
154 Melbourne Street, South Brisbane
PO Box 307Spring HillQLD4004Australia
Phone: (07) 3864 0299
Fax: (07) 3221 2553
Email:
Website:
Contents
1Rationale
2Dimensions and objectives
2.1Dimension 1: Analysing design problems
2.2Dimension 2: Applying design factors and communicating
2.3Dimension 3: Synthesising and evaluating designs
3Course organisation
3.1Course overview
3.2Core subject matter
3.3Units of work
3.4Advice, guidelines and resources
4Assessment
4.1Principles of exit assessment
4.2Planning an assessment program
4.3Special provisions
4.4Authentication of student work
4.5Assessment techniques
4.6Verification folio requirements
4.7Exit standards
4.8Determining exit levels of achievement
5Glossary
1Rationale
Technology Studies empowers students to explore the relationships between technology and society in order to be informed, responsible and responsive users and creators of technology. Technology encompasses the purposeful application of knowledge, resources, materials and processes to develop solutions. Solutions are the ideas and products developed in response to design problems.
Technology Studies engages students in responding to real-world problems. These problems are based on identified human needs or become opportunities for improvement or advancement. These real-world problems are referred to as design problems. In design problems, students consider the impact of sustainable design when developing innovative ideas and producing products. Sustainable design considers ethical perspectives through the principles of social, economic and environmental sustainability.
In Technology Studies, students develop an understanding of real-world product design and production processes. Technology Studies provides opportunities for students to develop skills in strategic and creative thinking, practical problem solving, information analysis, and project management, and challenges them to understand and appreciate technological innovation and its impact on society.
Using a design process, students investigate design problems from a variety of contexts considering the needs of individuals and communities or responding to identified opportunities. Students explore and analyse design factors to develop ideas and produce products through the practical application of manufacturing technologies and materials. Products are produced by students to confirm their design decisions.
Students build the skills of project management, enabling them to manage resources and risks effectively to develop solutions to design problems. Students critique and evaluate ideas and products against design criteria developed in response to the design problem and they justify decisions and make recommendations.
A course of study in Technology Studies can establish a basis for further education and employment in the fields of industrial design, product design, civil engineering, mechanical engineering, electrical engineering, architecture and project management.
2Dimensions and objectives
The dimensions are the salient properties or characteristics of distinctive learning for this subject. The dimensions are described through their objectives and it is these that schools are required to teach and that students should have the opportunity to learn. The objectives describe what students should know and be able to do by the end of the course of study.
Progress in a particular dimension may depend on the qualities and skills developed in other dimensions. Learning through each of the dimensions must increase in complexity to allow for greater independence of the learner over a four-semester course of study.
Schools must assess how well students have achieved the objectives. The standards have adirect relationship with the objectives, and are described in the same dimensions as the objectives.
The dimensions for a course of study in this subject are:
- Dimension 1: Analysing design problems
- Dimension 2: Applying design factors and communicating
- Dimension 3: Synthesising and evaluating designs.
2.1Dimension 1: Analysing design problems
The dimension Analysing design problems involves identifying a design problem and analysing the knowledge and understanding, referred to as design factors, required to respond to and develop solutions. Design problems can be found in a variety of contexts. Students should consider both individuals and communities when responding to an identified human need or opportunity.
2.1.1Objectives
By the conclusion of the course of study, students should:
- describe design problems and identify design criteria
- interpret design problems using design factors
- analyse the impacts of design factors on decisions.
When describing, students outline for either individuals or communities the details of the context, and the human need or opportunity, to determine the design problem. They identify design criteria from the design problem while considering the quality, functionality and reliability of a product.
When interpreting, students examine the essential features and characteristics of design factors and make connections between the design factors and the design problem.
When analysing, students examine the impacts of design factors, both positive and negative, on decisions made throughout a design process.
2.2Dimension 2: Applying design factors and communicating
The dimension Applying design factors and communicating involves using information related to the design factors to develop ideas and propose solutions to design problems. Ideas are developed to produce productsconfirming student’s ideas resolve the design problems. Ideas and decisions are communicated throughout a design process when developing solutions to design problems.
2.2.1Objectives
By the conclusion of the course of study, students should:
- apply design factors to develop ideas
- use manufacturing technologies, materials and project management skills to produce products in response to design criteria
- use communication suited to modes and audiences.
When applying the design factors, students generate a range of ideas that are solutions to design problems. To do this they use a range of design strategies.
When using manufacturing technologies, materials and project management skills, students consider the practical knowledge required to use tools and materials. Students produce products that solve design problems and respond to design criteria. When project managing, students consider production processes, including resources and safety, to develop time and cost plans that involve planning and implementation to make products.
When communicating, students use the modes of visual and written communication to document their analysis, ideas and decisions for audiences for an intended purpose. There is opportunity for students to use spoken/signed modes. Visual communication includes sketches and drawings. Written communication includes accepted genre structures and associated conventions. Spoken/signed communication includes verbal and nonverbal features.
2.3Dimension 3: Synthesising and evaluating designs
The dimension Synthesising and evaluating designs involves synthesising ideas to develop a concept. Decisions are justified throughout a design process and include recommendations to improve ideas and products. Solutions to design problems are evaluated using design criteria to determine the quality, functionality and reliability of a product.
2.3.1Objectives
By the conclusion of the course of study, students should:
- synthesise ideas to develop concepts that respond to design problems
- justify decisions and recommendations
- evaluate ideas and products using design criteria.
When synthesising, students bring together possible ideas, which include consideration of design criteria and design factors, to develop a concept. The concept is refined to produce a product.
When justifying, students provide sound reasons or evidence to support decisions. Decisions, including recommendations to improve ideas and products, are made throughout a design process to generate solutions to design problems. When making decisions, students critique and reflect, question and review processes, analyse structures that are in place and review the performance of products, individuals or groups.
When evaluating, students assign merit according to design criteria to assess the quality and effectiveness of their solutions. Solutions are the ideas and products developed in response to design problems. Effective solutions are based on the results of testing and user satisfaction and will be evident throughout the evaluation. Design criteria are established in response to the design problem.
3Course organisation
3.1Course overview
The minimum number of hours of timetabled school time, including assessment, for a course of study developed from this syllabus is 55 hours per semester. A course of study will usually be completed over four semesters (220 hours).
Technology Studies is designed to enable schools to develop a course with a diverse range of teaching and learning experiences through the dimensions Analysing design problems, Applying design factors and communicating and Synthesising and evaluating designs.
The four-semester course of study consists of:
- core subject matter:
design process (Section 3.2.1)
design factors (Section 3.2.2)
- six to eight units of work that provide opportunities for students to:
investigate a range of design problems
apply the design factors
apply the design process.
3.2Core subject matter
The core subject matter in Technology Studies is a design process and design factors. All core subject matter is included in Year 11 and then revisited and further developed in Year 12. Emphasis is on depth rather than breadth. It is not expected that all subject matter will be covered in each unit.
3.2.1Design process
Design processes are ways of thinking and working that are used to define a design problem and develop viable and innovative solutions that are produced and evaluated against design criteria. Design is a process that helps students develop creativity and innovation.
For students to develop knowledge and understanding of a design process it is critical that teachers provide teaching and learning opportunities that enable students to work with subsets of a design process as well as the complete design process.
When solving design problems, students may work individually or in groups. They manage and evaluate design and production processes. They communicate by documenting their thinking through sketches, drawings, written responses and by producing products. Spoken/signed communication may also be considered.
The dimensions and objectives are evidenced as students engage in a design process with three stages: exploring a design problem; developing ideas and producing products. These stages are iterative and progressive leading to the development of new ideas and innovative products. Students continuously manage and evaluate the ideas, processes, and products they create.
Figure 1 illustrates the stages of the design process.
Figure 1: A design process
As students experience the stages of a design process they engage in a range of cognitive, communication, creative, research and technical skills. Possible aspects of each stage are outlined below.
Exploring a design problem may involve:
- identifying and describing the human need or opportunity for either an individual or the community, within a context
- evaluating how well existing products meet a need and identifying areas for possible improvement
- describing the design problem
- investigating design factors by accessing information from primary sources (e.g. interviews with individuals or members of the community, surveys) and secondary sources (e.g. books, internet search of other designers) to understand the nature of the design problem
- analysing the impact of relevant design factors to make informed decisions
- developing and communicating a design brief
- interpreting the design brief and identifying design criteria that are used to determine the suitability of ideas, processes and products.
Developing ideas may involve:
- generating and representing ideas (e.g. sketches, graphic organisers and annotated drawings)
- evaluating ideas in relation to the design criteria (e.g. gathering user feedback, conducting a plus, minus, interesting (PMI) strategy to consider different ideas)
- collecting data and information about relevant design factors through research and testing to progress and evaluate ideas and inform the selection of a concept (e.g. annotations, test results)
- selecting and refining a concept to satisfy design criteria
- justifying the concept.
Producing products may involve:
- producing working drawings
- developing a production plan (e.g. time and cost, manufacturing technologies, materials, production process, personal production skills, safety and risk management)
- managing the implementation of the production plan
- producing a product by applying knowledge and skills of manufacturing technologies and materials
- field testing the product with the user
- making and justifying decisions to modify the product and production plan
- evaluating and describing (e.g. using text, photographs, annotations) how the final product meets the design criteria
- making and justifying recommendations for improvement to design processes and products.
3.2.2Design factors
Design factors describe the knowledge used when making decisions to solve real-world design problems. The design factors are integral to a design process and therefore are part of the core subject matter for this subject.
For students to develop knowledge and understanding of the design factors it is critical that teachers model how design factors are used throughout a design process to develop solutions to design problems.
In Year 11, the design factors may be taught individually to build students’ knowledge of how the design factors are used throughout a design process. By Year 12 all design factors should be considered when solving design problems. The interconnectedness, emphasis and importance of each design factor will be determined by the design problem.
Not all design factors have to be used in each design problem. The nature of the design problem means that some design factors may be stipulated; others may have varying impact on solutions or may not be evident in the products produced. The relevance and emphasis of each design factor will vary according to the design problem.
Development in the students’ depth of understanding of the design factors should occur over the course of study so students are able to make decisions about them when solving design problems.
The design factors are composed of key ideas. The key ideas illustrate the scope of the design factors. Suggested subject matter shows the breadth of knowledge within each key idea. All key ideas should be introduced in Year 11 and be evident in the course of study before verification in Year 12. Over the course of study there should be an increase in the complexity of knowledge and understanding of the key ideas.
The design factors, key ideas and suggested subject matter are outlined in Table 1.
Table 1: Design factors, key ideas and suggested subject matter
Design factors / Key ideas / Suggested subject matterUser-centred design / When solving design problems, the purpose is to identify the human need or capitalise on an opportunity with a view to developing a solution that functions and satisfies the user. /
- Purpose and function includes user’s:
emotional and sensory response
social and physical needs
cultural points of view/belief
comfort
accessibility
ergonomics and anthropometric data
safety
trends.
Legal responsibilities / Legal responsibilities ensure solutions to design problems are accountable and safe. /
- Legal responsibilities:
Australian and International (ISO) standards, regulations and legislation (including OH&S)
safety of the product for the user.
Sustainable design / When developing sustainable solutions consideration must be given to the impacts of social, economic and environmental sustainability in all stages of a design process. /
- Social sustainability:
- changing social trends
- the changing nature of work
- technological change.
- Economic sustainability:
ensuring products are "built to last" andfunction efficiently over a long period of time.
- Environmental sustainability:
eco-footprint
recycling
use of renewable energy and resources and systems to ensure sustainability.
Elements and principles of design / Elements of design refer to the components available for the designer to communicate visually, while principles of design describe how the elements could be used. /
- Elements of design:
- Principles of design:
contrast/harmony
proximity/unity
alignment
repetition/consistency
hierarchy/proportion/scale.
Design strategies / When developing new or improved solutions to design problems, consideration of design strategies should be used to facilitate innovation and develop, refine and document solutions. /
- Design approaches:
sketching and graphic organisers
processes used by expert designers in a range of fields
history of inventions and famous designers
iconic designs
existing products and their design processes
examples of design opportunities that are identified from research and development, user feedback, new materials and emerging technologies.
Communication / Communication is used throughout all stages of a design process and conveys how solutions were achieved. Communication includes visual and written formats. Spoken modes may also be considered. /
- Visual communication:
drawings
computer generated images
photographs
animations
video.
- Written communication:
paragraphs
extended writing.
- Spoken:
nonverbal features.
Manufacturing technologies / Tools, processes and equipment are selected according to the solutions to be developed. /
- Tools:
- alter the size, shape or finish of a material
- hand tools
- power tools
- machinery
- considering material, expertise, quality, safety.
- Processes:
- forming materials
- separating materials
- combining materials
- finishing materials
- safe practices.
- Equipment:
- 3D router
- sewing machine
- robotics
- pneumatic and hydraulic control
- micro controllers
- CNC machinery
- laser cutters
- 3D printers
- 3D modelling CADD systems
- electronics
- electro-mechanical control systems.
Materials / The classification and properties of materials influence the application and suitability of materials selected for a particular purpose when solving the design problem. /
- Classification of materials:
- Properties of materials:
- Applications of materials based on:
cost
weight
availability
joining and forming methods
adherence of surface finishes and adhesives.
Project management skills / Planning and implementing project management skills are used to manage resources and risks effectively to achieve an outcome. /
- Planning:
identifying and sequencing key stages of producing products
developing time and cost plans
developing materials lists
developing production processes considering the availability of tools and equipment
identifying and managing potential workshop hazards and risk.
- Implementing
monitoring time and cost plans
evaluating processes and product at key stages
working safely by oneself and with others.
3.3Units of work
Units of work are to be developed to offer a range of design experiences that increase in complexity and independence across the four-semester course of study.